DE2038052C3 - Tool arrangement for the electrochemical lowering of three-dimensional shapes - Google Patents

Description

The invention relates to a tool arrangement for the electrochemical lowering of three-dimensional shapes, each of which has an essentially cylindrical outer surface, with an electrode, the electrochemically active surface of which has at least one opening for the flowing electrolyte to flow through, and with one that adjoins the workpiece surface via an electrically conductive material Electrolyte mask with an opening serving for the passage of the electrode, the edge of which has a contour equal to the cross-sectional contour of the cylindrical outer surface of the three-dimensional shape to be lowered and with the electrode, when it passes through this opening, encloses a gap for the flow of the electrolyte stream .

Such a tool arrangement is common and z. B. from the article by H eitma π η, Η. and PahI ₁ D. published in "Industrie-Anzeiger, Essen", Volume 88, No. 68 of August 26, 1966, p. 1514, Fig. 18, known. A known tool arrangement of this type is also shown in FIG. 1 shown schematically in section.

Into the surface 1 of the workpiece 2 (Fig. 1) should a hole can be countersunk, the contours of which are indicated by the lines 3. The tubular Electrode 4, which, as indicated by 5, at the negative pole of a suitable operating voltage source is connected, has a thickening 6 at its free end; their remaining outer surface is covered by an electrically insulating layer 7.

Closely adjoining the workpiece surface t is an electrically non-conductive electrolyte mask 8 which has an opening 9, the cross section of which is approximately the same as that of the bore to be lowered and through which the electrode 4 passes when it is advanced towards the workpiece 2. The electrolyte is in the direction of the electrolyte mask 8

direction of the arrows 10 supplied, flows through the between Electrode face and workpiece surface 1 formed gap and is finally through the tubular electrode 4 is discharged in the direction of arrow 11.

G in F i. 1 shows the position of the electrode 4 and the contour 13 of the depression shortly after the start of the electrochemical material removal. The edge 14 of the opening 9 of the non-conductive electrolyte mask resting on the workpiece surface 1 forms a re-entrant edge in the electrically conductive system consisting of workpiece, electrolyte and electrode, at which a concentration of the electric field occurs on the electrolyte side. Due to this field concentration, the

«5 an appropriate concentration of the electrolyte Generates current density, which increases electrochemical material removal at the point IS on the workpiece causes the between the unmachined workpiece surface 1 and the surface of the to lowering hole creates a rounded edge.

If this edge trimming is not desired (e.g. in the case of cutting plates), there is - as on p. 1515, left column, paragraph 3 of the above

Article is explained - the possibility of the responsible field and current density concentration to avoid at the top edge of the hole by placing between the electrolyte mask and the workpiece surface an auxiliary sheet ground on both sides is arranged, which - by means of the electrolyte mask against printed the workpiece surface and thereby accepting the workpiece potential - an addition of the workpiece, which must first be lowered before the electrode is lowered during the lowering process

4S penetrates the actual workpiece. In order to avoid that a loose pin piece is formed when the auxiliary plate is ^{lowered, which could cause Ku r} zschlüssc, the Hilfsblcch must have a corresponding opening at the point where such a loose pin piece could form, which with respect to the electrode has to be adjusted appropriately.

This known method with the use of an auxiliary sheet is in itself only applicable to workpieces, where the original workpiece surface in which the countersink is to be made, is flat and has a high surface quality. Because of the effort involved in using such represents auxiliary sheets serving as consumables, this method is moreover only practical usable for one-off production or small quantities.

The invention is based on the object of a tool arrangement with an electrolyte mask for electrochemical Indicate lowering of spatial forms of the type mentioned, which it is without use of disposable parts, such as B. Auxiliary sheets are also allowed in uneven workpiece surfaces

To make countersinks, their cylindrical surface areas with the original workpiece surfaces each have sharp edges.

This object is achieved according to the invention in that an electrolyte mask is used which at least in the area of the electrode passage opening from an electrically conductive, electrochemically inactive and with the workpiece in electrically conductive Related material exists. This material is preferably formed by graphite.

According to an advantageous embodiment of the invention, the workpiece is above said electrical conductive part of the electrolyte mask connected to the positive pole of the operating voltage source.

To explain the invention, a tool arrangement according to the invention is shown in FIG. 2 as an example shown schematically in section. This tool arrangement differs from the known one Arrangement according to FIG. I essentially in that they instead of the electrolyte brand 8 made of plastic (F i g. 1) has an electrolyte mask 16 made of graphite and that the workpiece 2 over this graphite electrolyte mask 16, as indicated by 17, is connected to the positive pole of the operating voltage source is. Workpiece 2 and graphite electrolyte mask 16 are essentially on the same electrical level Potential, so that at the point 18 in the electrolyte there is no concentration of the electric field occurs more, and therefore a workpiece contour 19 shortly after the start of the electrical removal arises, which forms a sharp edge 20 with the workpiece surface 1. This sharp edge 20 is also maintained during the further progress of the electrochemical lowering.

1 sheet of drawings

Claims (3)

Patent claims: 1. Tool arrangement for the electrochemical lowering of three-dimensional shapes, each having a substantially cylindrical outer surface, with an electrode, the electrochemically active surface of which has at least one opening for the flowing electrolyte to flow through, and with an electrolyte mask tightly connected to the workpiece surface via an electrically conductive material with an opening serving for the passage of the electrode, the edge of which has a contour equal to the cross-sectional contour of the cylindrical outer surface of the three-dimensional shape to be lowered and with the electrode, when it passes through this opening, encloses a gap for the flow of the electrolyte stream, characterized in that an electrolyte mask (16 ) is used, which consists of an electrically conductive, electrochemically inactive material in electrically conductive connection with the workpiece (2) at least in the area of the electrode passage opening (9). 2. Tool arrangement according to claim 1, characterized in that the material of the electrochemical inactive, electrically conductive part of the electrolyte mask (16) formed by graphite will. 3. Tool arrangement according to claim I and 2, characterized in that the workpiece (2) via the electrochemically inactive, electrically conductive part of the electrolyte mask (16) is connected to the positive Poi of the operating voltage source.